GEO/ENV 315/GEO 514 Hydrogeology Class meets: Time: Mondays: 5:30 pm – 8:30 pm. Location: ESS 183 Office Hours: Wednesdays and Fridays 3:00 – 4:00 pm ESS.

Slides:

Advertisements

Similar presentations

Chapter 3 Section 3 OBJECTIVES:

Advertisements

Water Cycle Water Budget

Water Cycle and Groundwater. Water Cycle and Groundwater Water can be all 3 states of matter – solid, liquid, gas Percentages of water on Earth: 75% of.

Introduction to Physical and Chemical Hydrogeology (GEO 346C) Instructor: Bayani Cardenas TAs: Travis Swanson and John Nowinski

Lecture 3 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.

THE WATER CYCLE Water moves from the oceans to the atmosphere, from the atmosphere to the land, and from the land back to the oceans.

The Water Cycle.

Engineering Hydrology (ECIV 4323)

Hydrologic Cycle/Water Balances. Earth’s Water Covers approximately 75% of the surface Volcanic emissions Only known substance that naturally exists as.

ESS 454 Hydrogeology Module 1 Course Overview, Hydrogeology History,

EEOS 350: Quantitative hydrogeology Lecture 2 Water balance.

Unit 01 : Advanced Hydrogeology Review of Groundwater Flow Malcolm Reeves Civil and Geological Engineering.

Water, water everywhere?

Bell Work: Where does the water cycle get its energy from?

Earth is the only planet with liquid water at its surface.

The Water Cycle.

The water cycle, also known as the hydrologic cycle or H 2 O cycle, describes the continuous movement of water on, above and below the surface of the.

Exam pt improvement over 1 st exam (better than past) 150 (63%) improved over the first exam.

The Water Cycle

H2OH2O Water. Where is our water 97.5% of all water on Earth is saltwater or brackish water. 1.75% of all water is frozen..75% of all of the water on.

These notes are provided to help you pay attention IN class. If I notice poor attendance, fewer notes will begin to appear on these pages 1.

Hydrologic Cycle. Water is Ubiquitous! Biosphere- Water Cycle Hydrosphere Liquid waters of earth. 1. Oceans 2. Lakes 3. Streams 4. Glaciers Atmosphere.

Energy Transformation 1 Caloria of heat = energy necessary to raise the temperature of one gram of pure water from 14.5 – 15.5 o C Latent Heat of vaporization.

CE 424 HYDROLOGY 1 Instructor: Dr. Saleh A. AlHassoun.

Hydrologic Equation Inflow = outflow +/- Changes in storage Equation is simple statement of mass conservation.

Engineering Hydrology (ECIV 4323)

The Water Cycle The Water Cycle Science 8 9/07 Water is a “universal solvent: and wherever it goes throughout the water cycle, it takes up valuable chemicals,

AKA The Hydrologic Cycle. Water 3 states Solid Liquid Gas The 3 states of water are determined mostly by temperature. Even though water is constantly.

Tyler, Michael, Diana, Shea. The General Water Cycle.

Ф Physical change from liquid to gas Ф 600 calories evaporate 1 gram H 2 O Ф Solar Radiation, Air Temperature, Vapor Pressure, Wind all affect rate.

Water Resources.

Essential elements describe the flow of essential elements from the environment through living organisms and back into the environment. Biogeochemical.

INTRODUCTION HYDROLOGY and HYDROGEOLOGY HYDROLOGY:

The Water Cycle.

Introduction to Water You need to write down the underlined words for vocabulary!

AOM 4643 Principles and Issues in Environmental Hydrology.

Unit 1 Earth’s Water Lesson 1 Water and Its Properties Lesson 2 The Water Cycle Lesson 3 Surface Water and Groundwater.

The Water Cycle 5 th Grade Science. The Water Cycle.

Introduction to Water – Chapter 24. Pretest Water: 4 Primary Sections The Hydrologic Cycle (Water Cycle) The Hydrologic Cycle (Water Cycle) Glaciers.

Water Every Drop Counts!. Earth’s Water Supply 2 Groups of Fresh Water 1.) Surface (above ground) 2.) Ground (below the ground surface)

By: Jill Roe and Kaelyn Burns. Terms in the Cycle Groundwater: Water that sinks into the soil and is stored in slowly flowing and slowly renewed underground.

Water H 2 O = 2 hydrogen atoms + 1 oxygen atom Forms of water: –Liquid –Solid (ice) –Gas (in the air)

The Water Cycle. Water 3 states Solid Liquid Gas The 3 states of water are determined mostly by temperature. Even though water is constantly changing.

WLCOME TO ALL. ANWARA HASINA CHIEF INSTRUCTER (CIVIL) TECHNICAL TEACHERS’ TRAINING CLASS:B Sc-in –TCEH. Education. Subject: Water Resources Engineering.

The Hydrologic (Water) Cycle. Where is water found? Water is stored on Earth in the:  oceans  icecaps and glaciers  groundwater  lakes  rivers 

The Water Cycle. Think About It: Why is there humidity? There is moisture in the air. Why is there moisture in the air? It evaporates from lakes and oceans.

Lecture 2 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.

LECTURE-2: SPHERES OF THE EARTH Hydrosphere Course Instructor: Md Asif Rahman (ASR) Lecturer, Department of Mathematics and Natural Sciences (MNS)

THE WATER CYCLE THE EXISTENCE AND MOVEMENT OF WATER ON, IN, AND ABOVE THE EARTH.

Engineering Hydrology (ECIV 4323)

7th Grade Weather Unit-Marion

Hydrologic Cycle (Water Cycle)

Precipitation, Evaporation, Transpiration, Condensation

The Global & Local Storage and Flow of Water

Aim: How is Earth’s supply of water being continuously recycled?

Hydrologic Cycle Terms and Vocabulary.

Earth is the only planet with liquid water at its surface.

Relative volume of the ocean and Earth.

Evaporation Process by which water changes from a liquid to a gas, heat energy necessary, molecules excited.

U1L2&3 – The Water Cycle, Surface Water and Groundwater

Also known as the Hydrologic Cycle

Engineering Hydrology (ECIV 4323)

Aquifers, Groundwater, and Surface Water

Engineering Hydrology (ECIV 4323)

Topic: The Water Cycle and Ground Water

Water Cycle Model Sign with group members

Water on Earth.

Presentation transcript:

GEO/ENV 315/GEO 514 Hydrogeology Class meets: Time: Mondays: 5:30 pm – 8:30 pm. Location: ESS 183 Office Hours: Wednesdays and Fridays 3:00 – 4:00 pm ESS 230 Required textbook: Applied Hydrogeology (4 th edition), C. W. Fetter Prentice Hall

GEO/ENV 315/GEO 514 Hydrogeology Instructor: Lianxing Wen office: ESS 230 phone: fax:

Requirements and Grading Geo/Env 315: attend lectures; 5 problem sets (60%), 2 examinations (20% each). Geo 514: all above (80%) + a term paper (20%)

Class website Class website:

Water Budget Saline water Land Area -- Ice caps and glaciers -- Ground water -- Soil Moisture -- Fresh water lakes -- Rivers -- Saline lakes

Water Budget Saline water 97.2% Land Area 2.8% -- Ice caps and glaciers 2.14% -- Ground water 0.61% -- Soil Moisture 0.005% -- Fresh water lakes 0.009% -- Rivers % -- Saline lakes 0.008%

Water Budget (Cont.) Atmosphere 0.001% Atmosphere circulates rapidly in. on Conterminous U.S in. are returned via evaporation and transpiration in. flows into oceans as rivers.

Hydrologic Equation Inflow = outflow +/- Changes in storage Equation is simple statement of mass conservation

Hydrologic inputs into area Precipitation Surface water inflow (streamflow + overland flow) Ground water inflow from outside area Artificial import (pipes + canals)

Hydrologic outputs into area Evapotranspiration from land areas Evaporation from surface water Runoff of surface water Groundwater outflow Artificial export of water through pipes and canals

Changes in storage Changes in volume of: -- surface water in streams, rivers, lakes, and ponds. -- soil moisture in vadose zone -- ice and snow at surface -- temperature depression storage -- water on plant surfaces -- ground water below water table

Mono Lake Inputs: precipitation; streams; ground water. Outputs: evaporation; artificial streams.

Hydrologic Cycle (Precipitation Pathways) Depression Storage - ice, snow, puddles. Overland flow Infiltration -- Vadose zone – (soil moisture), interflow -- Gravity drainage -- Zone of saturation – (ground water) Baseflow-ground-water contribution

Hydrologic Cycle (Precipitation Pathways – cont.) Baseflow – groundwater contribution to stream Subsea outflow Runoff – total flow in a stream Magmatic water

Energy Transformation 1 Caloria of heat = energy necessary to raise the temperature of one gram of pure water from 14.5 – 15.5 o C Latent Heat of vaporization Hv = – 0.564T (Cal./g) Latent Heat of condensation

Energy Transformation, Cont. Latent heat of fusion – Hf – 1 g of ice at 0 o C => ~80 cal of heat must be added to melt ice. Resulting water has same temperature. Sublimation Water passes directly from a solid state to a vapor state. Energy = Hf + Hv => 677 cal/g at 0 o C. Hv > 6Hf > 5 x amt. to warm water from 0 o C -> 100 o C

Aquifer Properties: Porosity, specific yield, specific retention. Potential: Transmissivity, storativity. Types: confined, unconfined. Hydraulic conductivity, Physical Laws controlling water transport.

Ground-water flow to wells Extract water Remove contaminated water Lower water table for constructions Relieve pressures under dams Injections – recharges Control slat-water intrusion